Evolutionary Determinants of Nonseasonal Breeding in Wild Chacma Baboons

Evolutionary Determinants of Nonseasonal Breeding in Wild Chacma Baboons

AbstractAnimal reproductive phenology varies from strongly seasonal to nonseasonal, sometimes among closely related or sympatric species. While the extent of reproductive seasonality is often attributed to environmental seasonality, this fails to explain many cases of nonseasonal breeding in seasona...

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Bibliographic Details
Published in:The American naturalist Vol. 201; no. 1; p. 106
Main Authors: Dezeure, Jules, Burtschell, Lugdiwine, Baniel, Alice, Carter, Alecia J, Godelle, Bernard, Cowlishaw, Guy, Huchard, Elise
Format: Journal Article
Language:English
Published: United States 01-01-2023
Subjects:
Animals
Female
Papio ursinus - physiology
Reproduction - physiology
Seasons
Social Behavior
Sympatry
reproductive phenology
primate
paternal care
reproductive suppression
reproductive seasonality
female-female competition
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Summary:AbstractAnimal reproductive phenology varies from strongly seasonal to nonseasonal, sometimes among closely related or sympatric species. While the extent of reproductive seasonality is often attributed to environmental seasonality, this fails to explain many cases of nonseasonal breeding in seasonal environments. We investigated the evolutionary determinants of nonseasonal breeding in a wild primate, the chacma baboon ( ), living in a seasonal environment with high climatic unpredictability. We tested three hypotheses proposing that nonseasonal breeding has evolved in response to (1) climatic unpredictability, (2) reproductive competition between females favoring birth asynchrony, and (3) individual, rank-dependent variations in optimal reproductive timing. We found strong support for an effect of reproductive asynchrony modulated by rank: (i) birth synchrony is costly to subordinate females, lengthening their interbirth intervals; (ii) females alter their reproductive timings (fertility periods and conceptions) in relation to previous conceptions in the group; and (iii) the reported effect of birth synchrony on interbirth intervals weakens the intensity of reproductive seasonality at the population level. This study emphasizes the importance of sociality in mediating the evolution of reproductive phenology in group-living organisms, a result of broad significance for understanding key demographic parameters driving population responses to increasing climatic fluctuations.
ISSN:1537-5323
DOI:10.1086/722082